Canister with porous plastic ends

ABSTRACT

A canister including an elongated hollow plastic body having a wall with inner and outer surfaces, an edge portion on the wall defining an open end, an end on the edge portion extending transversely to the inner and outer surfaces, a porous plastic member having an outer edge portion extending across the open end and fused to the end, an inner portion on the porous plastic member located radially inwardly of the outer edge portion and extending into the body and fused to the inner surface of the wall adjacent the end thereof, and a gas-treating material in the body. A method of fabricating the above canister including the steps of applying pressure and vibratory welding energy to the porous member to thereby cause the member which was originally planar in shape to have its outer edge compressed against the end of the body and fused thereto and the central portion inwardly of the outer edge forced into the body and its outer edge fused to the inner surface of the body adjacent the end.

This is a continuation of application Ser. No. 08/449,016 filed May 24,1995, now U.S. Pat. No. 5,641,088, which is a division of applicationSer. No. 08/219,400, filed Mar. 29, 1994, now U.S. Pat. No. 5,503,662,dated Apr. 2, 1996.

BACKGROUND OF THE INVENTION

The present invention relates to an improved canister for containinggas-treating material such as a desiccant or oxygen absorber.

By way of background, there are in use canisters of various types foradsorbing moisture from pharmaceutical containers and for treatingenvironments by absorbing gases therefrom. One type of prior canister isdisclosed in U.S. Pat. No. 4,772,300 wherein a web-bonded polyethyleneis secured to the ends of a polyethylene body by means of ultrasonicwelding. However, there was no consistency in obtaining good uniformwelds therebetween. It is believed that the deficiency was due to thefact that the interface of both parts did not melt at the same time tocreate a good fused bond.

SUMMARY OF THE INVENTION

It is the primary object of the present invention to provide a canisterwherein at least one porous end thereof is firmly secured to the body bymeans of vibratory welding, thereby producing a secure bondtherebetween.

Another object of the present invention is to provide an improvedcanister wherein a porous end is secured to the body at two annularjoints thereby assuring bonding therebetween which virtually precludesseparation which could lead to spilling of the contents of the canister.

A further object of the present invention is to provide an improvedmethod for fabricating a canister having a porous end. Other objects andattendant advantages of the present invention will readily be perceivedhereafter.

The present invention relates to a canister comprising an elongatedhollow plastic body having a wall, inner and outer surfaces on saidwall, an edge portion on said wall defining an open end, an end on saidedge portion extending transversely to said inner and outer surfaces,and a porous plastic member having an outer edge portion extendingacross said open end and being sufficiently stiff so as to be fused tosaid end by vibratory welding.

The present invention also relates to a canister comprising an elongatedhollow plastic body having a wall, inner and outer surfaces on saidwall, an edge portion on said wall defining an open end, an end on saidedge portion extending transversely to said inner and outer surfaces,and a porous plastic member having an outer edge portion extendingacross said open end and fused to said end and having an inner portionlocated radially inwardly of said outer edge and extending into saidbody and fused to said inner surface of said wall adjacent said end. Thecanister can contain a gas-treating material which adsorbs moisture orabsorbs other gases such as oxygen.

The present invention also relates to a method of fabricating a canistercomprising the steps of providing an elongated tubular plastic bodyhaving an inner surface and an outer surface and an edge portion on saidbody defining an opening and an end on said edge portion, providing aporous sheet-like plastic member which is sufficiently stiff so that itwill not buckle when subjected to pressure in a direction transversethereto and to vibratory welding energy substantially parallel theretoboth of which are experienced when it is subjected to vibratory welding,positioning said porous sheet-like plastic member across said openingand in engagement with said end, and applying pressure in a directiontransverse to said sheet-like member and vibratory welding energy in adirection substantially parallel to said sheet-like member to bond saidsheet-like member to said end.

The present invention also relates to a method of fabricating a canistercomprising the steps of providing an elongated tubular plastic bodyhaving an inner surface and an outer surface and an edge portion on saidbody defining an opening and an end on said edge portion, positioning aporous sheet-like plastic member across said opening in engagement withsaid end, applying pressure to said member to force an outer edgeportion thereof against said end and to force an inner portion locatedinwardly of said outer edge portion into said opening, and applyingvibratory welding energy to said member to effect fusion between saidouter edge portion of said member and said end and to also effect fusionbetween said inner portion of said member and said inner surface of saidedge portion adjacent said end.

The various aspects of the present invention will be more fullyunderstood when the following portions of the specification are read inconjunction with the accompanying drawings wherein:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is side elevational view of the improved canister of the presentinvention;

FIG. 2 is a plan view taken substantially in the direction of arrows2--2 of FIG. 1;

FIG. 3 is a cross sectional view taken substantially along line 3--3 ofFIG. 1;

FIG. 4 is an enlarged fragmentary cross sectional view takensubstantially along line 3--3 of FIG. 1 and showing the details at thelocations between the body and the porous ends of the canister;

FIG. 5 is a schematic fragmentary plan view showing a tube being cutinto lengths for providing the bodies of the canisters;

FIG. 6 is a schematic fragmentary side elevational view in cross sectiondepicting the next step in fabricating the canisters by attaching porousends to the first ends of the canisters by vibratory welding after theyhave been placed in a fixture;

FIG. 7 is a view similar to FIG. 6 but showing the next step in theprocess, namely, trimming excess porous materials away from the ends ofthe canisters;

FIG. 8 is a schematic view in cross section showing the next step,namely, filling the open ends of the canisters with gas-treatingmaterial;

FIG. 9 is a view similar to FIG. 6 and showing the next step, namely,bonding porous members to the opposite ends of the canister bodies afterthey have been filled with gas-treating material; and

FIG. 10 is a view similar to FIG. 7 and showing the excess porousmaterial being trimmed from the ends of the canisters.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The improved gas-treating canister 10 of the present invention includesa cylindrical canister body 11 fabricated of high density polyethyleneand having an outer surface 12 and an inner surface 13. Porous closuremembers of high density polyethylene 14 are bonded to end portions 15 ofcanister body 11 by vibratory welding. More specifically, porous closuremembers 14 include outer edge portions 19 which are bonded to ends 17 atthe junctions therebetween. In addition, porous members 14 includecentral inner portions 20 which are located within body 11 and havesurface portions 21 located radially inwardly of outer edge portions 19.The outer edges 21 of portions 20 are bonded to the inner surface at 22adjacent to ends 17. In addition, annular beads 26 are formed during thevibratory welding process and provide an additional bond between porousmembers 14 and body 11. Thus, each member 14 is bonded at threelocations, namely, at annular end 17 and at annular surface 22 adjacentend 17 and at annular beads 26, to thereby securely contain the granularmaterial 23 within the canister 10.

The canister 10 possessing the above-described multiple bond on members14 is fabricated in the manner shown in FIGS. 5-10. The first step inthe process is to provide bodies 11. These can be obtained by cutting anextruded high density polyethylene tube 24 into bodies 11 by means of asuitable cutting blade 25 associated with a tube rotating and advancingdevice 25', or the bodies 11 can be obtained in any other suitablemanner. The next step is to press fit bodies 11 into a fixture 27 withonly very small end portions 29 at both ends of bodies 11 protrudingbeyond the surfaces 30 of fixture 27. This causes them to be heldsecurely during the subsequent vibratory welding operations. Thereafter,a sheet of porous high density polyethylene 31 is laid across the openends of canister bodies 11. Sheet 31 has a matte surface and a shinysurface. Preferably the matte surface of sheet 31 is placed incontiguous relationship to the ends of bodies 11, but the shiny surfacecan be placed against the ends of the bodies 11. Thereafter, a vibratorywelding die 32 is applied to sheet 31 with sufficient pressure tocompress the portions 19 (FIG. 4) which are bonded to the ends 17 and toalso force the uncompressed central portions 20 into the interior of thebody 11. The protruding end portions 29, which are opposite to the endsto which the vibratory die 32 is applied, are supported by base portion28 associated with fixture 27. The pressure which is applied is depictedby arrows 33 and the vibratory motion, which is horizontal, is depictedby arrows 34. Porous plastic sheet 31 is sufficiently stiff so that itwill not buckle when subjected to the pressure and the vibratory motion.It is this combination of pressure and horizontal vibratory motion whicheffects the multiple bonds discussed above relative to FIGS. 3 and 4. Itis believed that the bead 26 is formed as a result of flow of moltenpolyethylene which is produced during the vibratory welding process.

After the porous plastic sheet 31 has been bonded to the plurality ofbodies 11, a trimming die 35 is applied to the sheet 31, as depicted inFIG. 7, and the excess material of sheet 31 is trimmed away so that onlythe smooth outer edge of member 14 exists at 37 on each of the bodies11. As shown in FIG. 7, trimming die 35 consists of a plurality ofcircular knives 38 which trim away the material of sheet 31 which liesoutside of ends 14.

The next step of the process is to place the bodies which were formed inFIG. 7 into an inverted position by inverting fixture 27 and fill thebodies 11 with granular material 23 from a source such as hoppers 41.Thereafter, another sheet of porous high density plastic material 31 isplaced across the open ends of bodies 11 which are held in fixture 27,and a vibratory welding die 32 applies pressure depicted by arrows 33and horizontal vibration depicted by arrow 34 to the top of plasticsheet 31 to thereby form ends 14 as described above relative to FIGS. 4and 7. During this procedure, the ends of bodies 11 which werepreviously closed with porous ends 14 are supported on base 28.Thereafter, a trimming die 35 is utilized to trim the excess porousmaterial 31 away from the ends of bodies 11.

In specific canisters which have been fabricated, the bodies 11 are highdensity polyethylene. The bodies 11 have an outer diameter ofapproximately 0.55 inches, a length of approximately 0.630 inches and awall thickness of approximately 0.035 inches and they have beenfabricated from a product known as Phillips HM520BN FDA grade highdensity polyethylene. When the bodies 11 are properly positioned inbores 26 of fixture 27, they protrude about 0.030 inches at each end.

In the specific canisters which have been fabricated, the sheets 31 areporous high density polyethylene which is known under the trademarkPOREX which is a proprietary product of Porex Technologies of Fairburn,Ga. The sheet 31 of POREX is originally 0.035 inches plus or minus 0.005inches thick. It has an air flow of 1900-3800 milliliters per minutethrough a one-inch diameter disc at a pressure of 1.2 inches of water.It will be appreciated that other porosities may be used, depending onthe specific requirements of any particular application. The sheet 31has a stiffness which is measured as the apparent bending modulus whichis indicated on a straight line graph of Deflection versus ApparentBending which is a plot of degrees deflection versus psi wherein thedegrees are between 8 and 30 and the psi is between 327 and 1226 whentested on a one inch-pound Tinius Olsen Stiffness Testing Machine(Condensation of ASTM D 747) wherein the span length is 0.5 inches andthe sheet width is 0.5 inches and the sheet thickness is 0.04 inches andthe load is 0.15 pounds with a load scale reading of 50%. It will beappreciated that other stiffnesses are acceptable. The criterion is thatthe sheet 31 should be sufficiently stiff so that it will not bucklewhen subjected to the forces encountered during vibratory welding.

Each porous member 14 retains the 0.035 inch dimension in the centralportion 20 which enters body 11. The outer edge portion 19, however, iscompressed to about 0.010 inches as a result of the above-describedvibration welding under pressure. It will be appreciated that othertypes of porous polyethylene which have other parameters can be used.

The vibration welding process described above utilizes a clamping forceor pressure of between about 700-900 pounds per square inch, and itincludes a cycle time of 2 seconds which includes a weld time of 1.5seconds with a subsequent hold time of 0.5 seconds being held at themaximum clamping force which is applied. The vibratory welding producesa sinusoidal waveform having an amplitude of 0.070 inches and a nominalfrequency of 240 Hz. The stiffness of the material 31 permits the use ofvibratory welding. In this respect, the material would tend to oscillateif it were not sufficiently stiff, and therefore it would tend tobuckle. However, because the material 31 is sufficiently stiff, it willnot buckle. The vibratory welding die which was used in the specificinstance is known under the name of BRANSON, and is manufactured byBranson Plastic Joining, Inc. of Henrietta, N.Y. The foregoing vibratorywelding process causes fusion between members 14 and body 11 at ends 17and at surfaces 22 and at beads 26. This fusion is obtained because bothparts 11 and 14 in both interface areas 17 and 22 melt at substantiallythe same time under the foregoing circumstances notwithstanding theirdifferences in porosity. The fact that they melt substantiallysimultaneously is unexpected because they are so different in porosity.

It will be appreciated that the bodies 11 may be made of other resins ofpolyethylene and in other sizes, which includes other diameters, otherlengths, and other wall thicknesses. It will also be appreciated, asnoted above, that the porous high density polyethylene which is used forend members 14 can be made in other stiffnesses, other thicknesses andother porosities also if desired. The changes in parameters of thebodies 11 and end members 14 may require changes in the vibratorywelding parameters.

The granular material 23 which was actually used in the canisters 10 isknown as Crosfield white silica gel having a particle size of about0.5-1 millimeter, and the canisters 10 containing such silica gel areintended for use in adsorbing moisture in various environments such aspharmaceutical containers, food containers, and in any otherenvironments where moisture adsorption is desired. It will beappreciated, however, that any other type of granular or nongranulargas-treating material can be used including by way of example and not oflimitation such materials as activated charcoal, molecular sieve,activated bentonite, montmorillonite, calcium sulfate, Clintolite andcrystalline metal aluminosilicates. The canisters can also contain anyother suitable product including but not limited to conventional oxygenabsorbing compositions and conventional carbon dioxide absorbingcompositions. The foregoing products absorb or adsorb gases from theenvironments in which the canisters are placed. However, the canisterscan also contain products which produce vapors which pass into theenvironment in which the canisters are located, and such vapors, by wayof example and not of limitation, are fragrances and carbon dioxide.Therefore, the material within the canister body 11 will becharacterized as "gas treating."

In addition to the foregoing, while the specific material of canister 10has been described above as being high density polyethylene, it is to beunderstood that polypropylene can also be used for both the body 11 andthe porous member 14, and the parameters for effecting the vibratorywelding will have to be adjusted accordingly. It is also believed thatother resins may also be used to provide canisters of the type depictedin FIGS. 1-4 wherein the porous ends are bonded at multiple annularlocations as described above. These other resins, by way of example andnot of limitation, may include nylon, polyvinylidene fluoride (PVDF),polytetrafluoroethylene (PTFE), styrene-acrylonitrile (SAN), polysulfone(PS), ethylene-vinyl acetate (EVA), polycarbonate (PC), polyphthalatecarbonate (PPC) and polyether sulfone (PES).

While the canister 10 has been described above as having two porous endmembers 14, it will be appreciated that it can be fabricated with onlyone porous end, such as 14, and with another end which is not porous,and the other end may be formed integrally with the body or attachedthereto. Also, while the canister has been described as containing agas-treating composition, it is believed that it has generalapplicability irrespective of its contents. In this respect, forexample, it may contain a product which must be allowed to breathe butwhich does not otherwise absorb, adsorb, or in any other way interactwith gases outside of the canister.

While preferred embodiments of the present invention have beendisclosed, it will be appreciated that it is not limited thereto but maybe otherwise embodied within the scope of the following claims.

What is claimed is:
 1. A canister comprising an elongated hollow plasticcanister body having a wall, inner and outer surfaces on said wall, anedge portion on said wall defining an opening, an extreme outer end onsaid edge portion which extends at an angle to said inner surface, and aplastic closure extending across said open end, said plastic closurehaving an outer edge portion fused to said extreme outer end of saidedge portion of said wall for securing said plastic closure to saidwall, said plastic closure also having an inner central porous portionlocated radially inwardly of said outer edge portion of said plasticclosure, said central porous portion extending into said opening andhaving an outer surface fused to said inner surface of said walladjacent said extreme outer end such that said outer surface of saidcentral porous portion extends along said inner surface and extends atsubstantially the same angle to said outer edge portion as said extremeouter end extends to said inner surface for additionally securing saidplastic closure to said wall.
 2. A canister as set forth in claim 1including a bead of fused plastic between said inner surface of saidwall and said inner central porous portion at the end of said outersurface of said inner central porous portion.
 3. A canister as set forthin claim 1 wherein said plastic closure is fused to said canister bodyby vibratory welding which forces said inner central porous portion ofsaid plastic closure into said canister body and causes said outersurface of said inner central porous portion to be fused to said walladjacent said extreme outer end in addition to causing said outer edgeportion of said plastic closure to be fused to said extreme outer end ofsaid wall.
 4. A canister as set forth in claim 3 including a bead offused plastic formed as a result of said vibratory welding and locatedbetween said inner surface of said wall and said inner central porousportion at the end of said outer surface of said inner central porousportion.
 5. A canister as set forth in claim 1 including a second edgeportion on said wall at the opposite end of said canister body from saidedge portion, said second edge portion defining a second opening, asecond extreme outer end on said second edge portion extending at anangle to said inner surface, and a second plastic closure extendingacross said second opening, said second plastic closure having a secondouter edge portion fused to said second extreme outer end of said secondedge portion of said wall for securing said second plastic closure tosaid wall, said second plastic closure also having a second innercentral porous portion located radially inwardly of said second outeredge portion of said second plastic closure, said second central porousportion extending into said opening and having a second outer surfacefused to said inner surface of said wall adjacent said second extremeouter end such that said second outer surface of said second centralporous portion extends along said inner surface and extends atsubstantially the same angle to said second outer edge portion as saidsecond extreme outer end extends to said inner surface for additionallysecuring said second plastic closure to said wall.
 6. A canister as setforth in claim 5 including a bead of fused plastic between said innersurface of said wall and said inner central porous portion at the end ofsaid outer surface of said inner central porous portion, and a secondbead of fused plastic between said inner surface of said wall and saidsecond inner central porous portion at the end of said second outersurface of said second inner central porous portion.
 7. A canister asset forth in claim 5 wherein said plastic closure and said secondplastic closure are fused to said canister body by vibratory weldingwhich forces said inner central porous portion and said second centralporous portion into said canister body and causes said outer surface ofsaid inner central porous portion and said outer surface of said secondinner central porous portion to be fused to said wall adjacent saidextreme outer end and said second extreme outer end, respectively, inaddition to causing said outer edge portion of said plastic closure andsaid second outer edge portion of said second plastic closure to befused to said extreme outer end of said wall and said second extremeouter end of said wall, respectively.
 8. A canister as set forth inclaim 7 including a first bead of fused plastic formed as a result ofsaid vibratory welding and located between said inner surface of saidwall and said inner central porous portion at the end of said outersurface of said inner central porous portion, and a second bead of fusedplastic formed as a result of said vibratory welding and located betweensaid inner surface of said wall and said second inner central porousportion at the end of said second outer surface of said second innercentral porous portion.
 9. A canister comprising a plastic canister bodyhaving a wall, inner and outer surfaces on said wall, an edge portion onsaid wall defining an opening, an extreme outer end on said edge portionwhich extends at an angle to said inner surface, and a porous plasticclosure having an edge portion fused to said extreme outer end andhaving a central porous portion extending into said opening and fused tosaid inner surface of said edge portion of said wall such that saidcentral porous portion extends along said inner surface and extends atsubstantially the same angle to said outer edge portion as said extremeouter end extends to said inner surface, said porous plastic closurebeing sufficiently stiff to withstand vibratory welding forces having apressure component transverse to said extreme outer end and a vibrationcomponent transverse to said pressure component which are utilized tofuse said porous plastic closure to said canister body.
 10. A canisteras set forth in claim 9 including a second edge portion on said walldefining a second opening, a second extreme outer end on said secondedge portion, and a second porous plastic closure having a second outeredge portion fused to said second extreme outer end and having a secondcentral porous portion extending into said canister body and fused tosaid inner surface of said second edge portion of said wall such thatsaid second central porous portion extends along said inner surface andextends at substantially the same angle to said second outer edgeportion as said second extreme outer end extends to said inner surface,said second porous plastic closure being sufficiently stiff to withstandvibratory welding forces having a pressure component transverse to saidsecond extreme outer end and a vibration component transverse to saidpressure component which are utilized to secure said second porousplastic closure to said canister body.
 11. A canister as set forth inclaim 10 including a first bead of fused plastic between said centralportion of said porous plastic closure means and said wall, and a secondbead of fused plastic between said second central portion of said secondporous plastic closure means and said wall.
 12. A canister comprising anelongated hollow canister body having a wall, an edge portion on saidwall defining an open end, an outer end on said edge portion, an innersurface on said wall extending at an angle to said outer end, and porousplastic closure means having an outer edge portion secured to said outerend and having a central portion secured to said inner surface of saidwall at said edge portion for permitting communication between theinside of said canister and gases outside of said canister, said centralportion extending at substantially the same angle to said outer edgeportion as said inner surface extends to said outer end.
 13. A canisteras set forth in claim 12 including a fused bead of plastic between saidcentral portion of said porous plastic closure means and said wall. 14.A canister as set forth in claim 12 wherein said canister includes asecond edge portion on said wall defining a second open end, a secondouter end on said second edge portion, a second inner surface on saidwall at said second edge portion extending at an angle to said secondouter end, and second porous plastic closure means having a second outeredge portion secured to said second outer end and having a secondcentral portion secured to said second inner surface of said wall atsaid second edge portion of said second open end for permittingcommunication between the inside of said canister and gases outside ofsaid canister, said second central portion extending at substantiallythe same angle to said second outer edge portion as said second innersurface extends to said second outer end.
 15. A canister as set forth inclaim 14 including a first bead of fused plastic between said centralportion of said porous plastic closure means and said wall, and a secondfused bead of plastic between said second central portion of said secondporous plastic closure means and said wall.
 16. A canister comprising aplastic canister body having a wall, inner and outer surfaces on saidwall, an edge portion on said wall defining an open end, an extremeouter end on said edge portion extending at an angle to said innersurface, and a plastic closure having an edge portion fused to saidextreme outer end and having a central portion extending into said openend and fused to said inner surface of said edge portion of said wallsuch that said central portion extends along said inner surface andextends at substantially the same angle to said outer edge portion assaid extreme outer end extends to said inner surface, said plasticclosure being sufficiently stiff to withstand vibratory welding forceshaving a pressure component transverse to said extreme outer end and avibration component transverse to said pressure component which areutilized to fuse said plastic closure to said extreme end and said edgeportion of said canister body.
 17. A canister asset forth in claim 16including a bead of fused plastic between said central portion of saidplastic closure and said wall.
 18. A canister comprising an elongatedhollow plastic canister body having a wall, an edge portion on said wallhaving inner and outer surfaces and defining an open end, an extremeouter end on said edge portion which extends transversely to said innerand outer surfaces, and a porous plastic closure extending across saidopen end, said porous plastic closure having an outer edge portion whichwas compressed and fused to said extreme outer end of said edge portionof said wall without having substantially changed the shape of anextreme outer end for securing said plastic closure to said end, saidplastic closure also having an inner central uncompressed porous portionlocated radially inwardly of said outer edge portion of said plasticclosure, said central porous portion extending into said canister bodyand having an outer surface fused to said inner surface of said edgeportion of said wall without having substantially changed the shape ofsaid inner surface of said edge portion of the wall for additionallysecuring said plastic closure to said wall.
 19. A canister as set forthin claim 18 including a bead of fused plastic between said inner surfaceof said wall and said inner central porous portion at the end of saidouter surface of said inner central porous portion.
 20. A canister asset forth in claim 18 wherein said plastic closure is fused to saidcanister body by vibratory welding which forces said inner centralporous portion of said plastic closure into said canister body andcauses said outer surface of said inner central porous portion to befused to said wall adjacent said extreme outer end in addition tocausing said outer edge portion of said plastic closure to be fused tosaid extreme outer end of said wall.
 21. A canister as set forth inclaim 20 including a bead of fused plastic formed as a result of saidvibratory welding and located between said inner surface of said walland said inner central porous portion at the end of said outer surfaceof said inner central porous portion.
 22. A canister as set forth inclaim 18 including a second edge portion on said wall at the oppositeend of said canister body from said edge portion, said second edgeportion having inner and outer surfaces and defining a second open end,a second extreme outer end on said second edge portion extendingtransversely to said inner and outer surfaces, and a second porousplastic closure extending across said second open end, said secondporous plastic closure having a second outer edge portion which wascompressed and fused to said second extreme outer end of said secondedge portion of said wall without having substantially changed the shapeof said second end for securing said second porous plastic closure tosaid wall, said second plastic closure also having a second innercentral uncompressed porous portion located radially inwardly of saidsecond outer edge portion of said second plastic closure, said secondcentral porous portion extending into said canister body and having asecond outer surface fused to said inner surface of said second edgeportion of said wall without having substantially changed the shape ofsaid inner surface of said second edge portion for additionally securingsaid second plastic closure to said wall.
 23. A canister as set forth inclaim 22 including a bead of fused plastic between said inner surface ofsaid wall and said inner central porous portion at the end of said outersurface of said inner central porous portion, and a second bead of fusedplastic between said inner surface of said wall and said second innercentral porous portion at the end of said second outer surface of saidsecond inner central porous portion.
 24. A canister as set forth inclaim 22 wherein said plastic closure and said second plastic closureare fused to said canister body by vibratory welding which forces saidinner central porous portions of said plastic closure and said secondplastic closures into said canister body and causes said outer surfaceof said inner central porous portion and said outer surface of saidsecond inner central porous portion to be fused to said wall adjacentsaid extreme outer end and said second extreme outer end, respectively,in addition to causing said outer edge portion of said plastic closureand said second outer edge portion of said second plastic closure to befused to said extreme outer end of said wall and said second extremeouter end of said wall, respectively.
 25. A canister as set forth inclaim 24 including a first bead of fused plastic formed as a result ofsaid vibratory welding and located between said inner surface of saidwall and said inner central porous portion at the end of said outersurface of said inner central porous portion, and a second bead of fusedplastic formed as a result of said vibratory welding and located betweensaid inner surface of said wall and said second inner central porousportion at the end of said second outer surface of said second innercentral porous portion.
 26. A canister comprising an elongated hollowcanister body having a wall, an edge portion on said wall defining anopen end, an internal surface on said wall proximate said open end andan extreme end portion on said wall which extends transversely to saidinternal surface, and porous plastic closure means fused to said extremeend portion of said wall without having substantially changed the shapeof said extreme end portion and fused to said internal surface withouthaving substantially changed the shape of said internal surface forconfining said material in said canister while permitting communicationbetween said material and gases outside of said canister.
 27. A canisteras set forth in claim 26 including a fused bead of plastic between saidporous plastic closure means and said wall.
 28. A canister as set forthin claim 26 wherein said canister includes a second edge portion on saidwall defining a second open end, a second internal surface on said wallproximate said second open end and a second extreme end portion on saidwall which extends transversely to said second internal surface, andsecond porous plastic closure means fused to said second extreme endportion without having substantially changed the shape of said secondextreme end and fused to said second internal surface without havingsubstantially changed the shape of said second internal surface forconfining said material in said canister while permitting communicationbetween said material and gases outside of said canister.
 29. A canisteras set forth in claim 28 including a first bead of fused plastic betweensaid porous plastic closure means and said wall, and a second fused beadof plastic between said second porous plastic closure means and saidwall.
 30. A canister comprising a plastic canister body having a wall,inner and outer surfaces on said wall, an edge portion on said walldefining an open end, an extreme outer end on said edge portion whichextends transversely to said inner surface, and a porous plastic closurehaving a compressed outer edge portion fused to said extreme outer endwithout having substantially changed the shape of said extreme outer endand having a central porous portion extending into said canister bodyand fused to said inner surface of said wall at said edge portionwithout having substantially changed the shape of said surface of saidwall at said edge portion, said porous plastic closure beingsufficiently stiff to withstand vibratory welding forces having apressure component transverse to said extreme outer end and a vibrationcomponent transverse to said pressure component which are utilized tofuse said porous plastic closure means to said canister body.
 31. Acanister as set forth in claim 30 including a bead of fused plasticbetween said porous plastic closure and said wall.
 32. A canister as setforth in claim 30 including a second edge portion on said wall defininga second open end, a second extreme outer end on said second edgeportion, and a second porous plastic closure having a second compressedouter edge portion fused to said second extreme outer end without havingsubstantially changed the shape of said second extreme outer end andhaving a second central porous portion extending into said canister bodyand fused to said inner surface of said wall at said second edge portionwithout having substantially changed the shape of said inner surface ofsaid wall at said second edge portion, said second porous plasticclosure being sufficiently stiff to withstand vibratory welding forceshaving a pressure component transverse to said second extreme outer endand a vibration component transverse to said pressure component whichare utilized to secure said second porous plastic closure means to saidcanister body.
 33. A canister as set forth in claim 32 including a firstbead of fused plastic between said porous plastic closure means and saidwall, and a second bead of fused plastic between said second porousplastic closure means and said wall.